Burner system

ABSTRACT

Discloded is an incinerator system including gas generating furnace ( 100 ) provided with incinerating room ( 130 ) into which combustibles including waste tire is loaded, and cover part ( 110 ), burning part ( 200 ) for burning a gas generated from the gas generating furnace ( 100 ) and introduced into burner ( 220 ) through introducing part ( 222 ) by using igniter ( 228 ) of ignition part ( 224 ), an enthothermal part ( 300 ) provided with gas circulation tubes ( 310 ), in which high temperature burnt gas introduced through connection tube ( 10   b ) is circulated through the gas circulation tubes ( 310 ) to water and drain the water through heated water drain tube ( 314 ); and cyclon ( 400 ) for collecting dust contained in waste gas that has passed through the enthotermal part ( 300 ) and discharging the dust into the atmosphere. Combustion gas generated by incinerating waster materials is perfectly burned at a high temperature and high pressure state, thereby restraining occurrence of contamination substances.

TECHNICAL FIELD

[0001] The present invention relates to an incinerator system in which waste rubber such as waste tire is incinerated to use high temperature heat generated by incinerating the waste rubber, and more particularly, to an incinerator system in which articles such as waste rubber are incinerated and high temperature and high pressure gas generated by incinerating the articles are burned in an adiabatically treated burning part, thereby capable of obtaining a high efficiency incinerator system, allowing the gas to be burned at a nearly perfect combustion state to minimize exhaust of contamination substances, and allowing the high temperature heat to be used so as to supply hot water.

BACKGROUND ART

[0002] Generally, a conventional incinerator system is devised to simply function as an incinerator, in which waste materials such as wood are loaded into the incinerator and incinerated by burning the waste materials. However, the conventional incinerator system has drawbacks in that it fails to generate high temperature heat and contamination materials such as sooty smoke generated during burning of the waster materials are discharged. In order to solve these problems, the inventor filed a Korean Patent Application No. 1997-51648 entitled “Incineration apparatus of waste synthetic resin and alternative fuel type of industrial boiler using the same” and later was assigned Laid Open Publication No. 1998-3299 which was published at Mar. 30, 1998. The present invention improves the prior invention.

DISCLOSURE OF THE INVENTION

[0003] Accordingly, the present invention is directed to an incinerator system that substantially obviates one or more of the problems due to limitations and disadvantages of the related art.

[0004] An object of the present invention is to provide an incinerator system in which waste materials such as waste tire or the like are incinerated and high temperature and high pressure gas generated by incinerating the waster materials are perfectly burned at a high temperature and high pressure state, thereby restraining occurrence of contamination substances such as dioxin or the like, and allowing the high temperature heat to be used in a general boiler, an industrial boiler or the like.

[0005] Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

[0006] To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described, there is provided an incinerator system comprising: a gas generating furnace 100 provided with an incinerating room 130 into which combustibles including waste tire are loaded, and a cover part 110 including an upper cover 114 and a lower cover 116, which are installed on the incinerating room 130 and are closed or opened by a sensor; a burning part 200 connected through a connection tube 10 a with the gas generating furnace 100, of which wall is adiabatically treated by an adiabatic brick, and having a construction in which a gas generated from the gas generating furnace 100 passes through an introducing part 222, is introduced into an a burner 220, is ignited by an igniter 228 at ignition part 224, and is burned, and an imperfectly burnt gas is again introduced into the introducing part 222 along a circulation passage by a circulation gas generated from a circulation air injection tube 216; an endothermic part connected with the burning part 200 through a connection tube 10 b, and provided with a plurality of gas circulation tubes 310 in a body part thereof, in which high temperature combustion gas introduced through the connection tube 10 b is circulated through the gas circulation tubes 310, and heat irradiated from the gas circulation tubes 310 heats water introduced through a heating water introducing tube 312 from an outside and drains the water through a heating water drain tube 314; and a cyclon 400 connected through a connection tube 10 c with the endothermic part 300, for collecting dust contained in waste gas that has passed through the endothermic part 300 and discharging the dust into the atmosphere.

[0007] Preferably, the cover part is a two stage structure in which an upper case 111 a is integrally formed with a lower case 111 b, upper and lower covers 114 and 116 are integrally formed in a lower surface of respective plates 112 a and 112 b, a rack gear 124 is formed on both sides of upper surface of the respective plates 112 a and 112 b, a plurality of rollers 118 are coupled to both sides such that the rollers 118 correspond to a guide rail 128 formed at inner both sides of the upper and lower cases 111 a and 111 b and thus the upper and lower plates 112 a and 112 b can be slidingly moved, a pinion gear 122 is coupled to both ends of a gear shaft 120 adjacently installed to a driving motor 126.

[0008] It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention.

[0010] In the drawings:

[0011]FIG. 1 is a perspective view of an incinerator according to the present invention, in which a cover part of the incinerator is partially cut;

[0012]FIG. 2 is a sectional view of main portions of an incinerator according to the present invention;

[0013]FIG. 3 is a detailed sectional view of a burning part of an incinerator according to the present invention; and

[0014]FIG. 4 is a detailed sectional view of the portion “A” in FIG. 1.

BEST MODE FOR CARRYING OUT THE INVENTION

[0015] Hereinafter, preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

[0016] Once incineration objects (or combustibles) such as waste tire or the like are loaded into an incinerating room 130 of a gas generating furnace 100, they are ignited by an external ignition means and then incinerated.

[0017] At this time, an upper cover 114 and a lower cover 116 are installed over the incinerating room 130, of which opening/closing timing is controlled by an external control box (not shown) electrically connected to a driving motor 126 through an electric wire or the like.

[0018] As the driving motor 126 is driven by the control of the control box every constant time interval, a gear shaft 120 installed adjacent to the driving motor 126 is rotated and a pinion gear coupled to both ends of the gear shaft 120 is also rotated.

[0019] The pinion gear 122 is correspondingly in mesh with a gear 124 on upper and lower plates 112 a and 112 b. Once the pinion gear 122 is rotated by the driving motor 126, the upper and lower plates 112 a and 112 b are slindingly moved, so that the upper and lower covers 114 and 116 are opened or closed.

[0020] A plurality of rollers 118 are disposed at both sides so that the upper and lower plates 112 a and 112 b can be slidingly moved.

[0021] According to the above construction, in a state that the lower cover 116 is closed by the driving motor 126 controlled by the control box, once the upper cover 114 is opened, incineration objects such as water tire or the like are loaded onto the lower plate 112 b of the case through an inlet 113 from an outside. After that, once the upper cover 114 is closed, the lower cover 116 is opened by the movement of the lower plate 112 b, so that the incineration objects are loaded into the incinerating room 130.

[0022] Like the above, since the covers are formed in the dual structure and opened and closed, it is prevented that heat and gas of the incinerating room 130 is leaked to an outside.

[0023] The incineration objects of waste tire incinerated within the incinerating room 130 generate gases or ashes due to the characteristic of the material while they are burned. The ashes remaining after the incineration are dropped onto a space part 134 placed below a net riddle 132, and then are discharged to the outside by a discharging screw 136.

[0024] As the incineration objects are incinerated, temperature of the incinerating room 130 is continuously elevated to reach a critical temperature, so that the inside of the incinerating room 130 is maintained at high temperature and high pressure.

[0025] After that, high temperature and high pressure combustion gas generated from the incineration objects is introduced into an introducing part 222 formed within a burning part 200, is sequentially transferred into a burner 220 and an ignition part 224.

[0026] The combustion gas is ignited at the ignition part 224 by an igniter 228, and then the igniter 228 is separated from the burning part 200.

[0027] The burning part 200 has an outer wall adiabatically treated by an adiabatic brick, which allows the combustion gas to be maintained at a high temperature. Accordingly, the ignited combustion gas is self-burned at the high temperature and high pressure state, so that the combustion gas is burned at a state near the perfect burning.

[0028] Residual gas that is less-burned in the ignition part 224 is re-introduced into the introducing part 222 through a circulation passage 218 to again pass through the burner 220, so that it becomes possible to perfectly burn the residual gas.

[0029] A circulation air injection tube 216 communicates with the circulation passage 218 to be directed toward the introducing part 220. Accordingly, once air generated from a blowing means 210 is supplied into the circulation air injection tube 216, air flow toward a certain direction is formed, so that residual combustion gas that is less-burned in the ignition part 224 passes through the circulation passage 218 and is supplied to the introducing part 222.

[0030] Like the above, in case the combustion gas is burned at the high temperature and high pressure state in the ignition part 224, it reaches a status near the perfect burning, e.g., a status that toxin materials are perfectly burned.

[0031] The burnt gas is transferred along a connection tube 10 b to an endothermic part 300 which is adiabatically treated by using an adiabatic material 316, to heat heating water contained in the endothermic part 300, and then is moved to a cyclon 400 after passing through a connection tube 10 c. After that, dust and residual harmful substances contained in the combustion gas are collected by the cyclon 40 and discharged.

[0032] The heating water is introduced through a heating water introducing tube 312, is heated by high temperature gas flowing through the gas circulation tube 310 and is drained through a heating water drain tube 314, thereby heating a predetermined place.

[0033] In the drawings, numerals 212 and 214 represent air injection tubes for supplying air to the burner, numeral 226 represents a cleaning hole for removing deposition piled on the bottoms of the introducing part 222 and the ignition part 224, and numeral 318 represents a heating water circulation tube that allows the heating water to circulate the endothermic part 300.

INDUSTRIAL APPLICABILITY

[0034] According to the incinerator system of the present invention having the above construction, waste materials such as waste tire or the like are incinerated and high temperature and high pressure gas generated by incinerating the waster materials are perfectly burned at a high temperature and high pressure state, thereby restraining occurrence of contamination substances, and allowing the high temperature heat to heat heating water. Accordingly, the incinerator system of the invention is applicable to a general boiler, an industrial boiler or the like.

[0035] While the present invention has been described and illustrated herein with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made therein without departing from the spirit and scope of the invention. Thus, it is intended that the present invention covers the modifications and variations of this invention that come within the scope of the appended claims and their equivalents. 

1. An incinerator system comprising: a gas generating furnace 100 provided with an incinerating room 130 into which combustibles including waste tire are loaded, and a cover part 110 including an upper cover 114 and a lower cover 116, which are installed on the incinerating room 130 and are closed or opened by a sensor; a burning part 200 connected through a connection tube 10 a with the gas generating furnace 100, of which wall is adiabatically treated by an adiabatic brick, and having a construction in which a gas generated from the gas generating furnace 100 passes through an introducing part 222, is introduced into an a burner 220, is ignited by an igniter 228 at ignition part 224, and is burned, and an imperfectly burnt gas is again introduced into the introducing part 222 along a circulation passage by a circulation gas generated from a circulation air injection tube 216; an endothermic part connected with the burning part 200 through a connection tube 10 b, and provided with a plurality of gas circulation tubes 310 in a body part thereof, in which high temperature combustion gas introduced through the connection tube 10 b is circulated through the gas circulation tubes 310, and heat irradiated from the gas circulation tubes 310 heats water introduced through a heating water introducing tube 312 from an outside and drains the water through a heating water drain tube 314; and a cyclon 400 connected through a connection tube 10 c with the endothermic part 300, for collecting dust contained in waste gas that has passed through the endothermic part 300 and discharging the dust into the atmosphere.
 2. The incinerator system of claim 1, wherein said cover part is a two stage structure in which an upper case 111 a is integrally formed with a lower case 111 b, upper and lower covers 114 and 116 are integrally formed in a lower surface of respective plates 112 a and 112 b, a rack gear 124 is formed on both sides of upper surface of the respective plates 112 a and 112 b, a plurality of rollers 118 are coupled to both sides such that the rollers 118 correspond to a guide rail 128 formed at inner both sides of the upper and lower cases 111 a and 111 b and thus the upper and lower plates 112 a and 112 b can be slidingly moved, a pinion gear 122 is coupled to both ends of a gear shaft 120 adjacently installed to a driving motor
 126. 